采用改进的溶胶-凝胶法制备出平均粒径为150,180,200和250 nm 的 SiO 2微球,反应温度为20~50℃,正硅酸乙酯浓度为0.2~0.3 mol/L,反应后添加0.02%~0.04%(体积分数)的硅烷偶联剂 KH-570,再通过球磨将亚微米级 SiO 2均匀分散到 PEG(聚乙二醇)中,获得相应的抗撞击体系.利用 TEM、XRD、Physica MCR301型流变仪分别对不同粒径的SiO 2微球的粒度分布、结构以及流变性能进行测试,结果表明,粒径为200 nm 的 SiO 2微球制备的抗撞击体系粒度分布均匀,为非晶结构,并且表现出很好的剪切增稠现象.
In this paper,the SiO 2 particles were prepared by sol-gel method based on St?ber method by control-ling the reaction temperature,the amount of TEOS,the addition of a silane coupling agent KH-570.The result shows that 150,180,200 and 250 nm of silicon dioxide spherical particles can be attained when the reaction temperature is from 20 to 50 ℃,concentration of TEOS is from 0.2 to 0.3 mol/L,the amount of dispersant that added after the reaction is from 0.02 vol% to 0.04vol%.Then,the SiO 2 was dispersed in polyethylene glycol u-niformly by ultrasonic dispersion method,several factors which have influences on the rheological properties of the system,such as the particle size of SiO 2 ,the particle size distribution,the mass fraction of SiO 2 ,molecular weight of polyethylene glycol were studied.Finally we get the anti-impact material.The rheological experiments of sub-micro SiO 2 suspension in polyethylene glycol(PEG)show that the sub-micro SiO 2 with larger particle size and concentrated distribution,higher mass fraction of SiO 2 and PEG with greater molecular weight can be obtained anti-impact system with better shear thickening effect.
参考文献
| [1] | Wu Huimin;Wang Jing;Fu Xiang et al.Experimental study on shear thickening properties of nano-SiO 2/poly-ethylene glycol non-newtonian fluid[J].Journal of Zhe-jiang Sci-Tech University,2013,30(05):658-662. |
| [2] | 杨威,张明月,任雅楠,赵爽,吴丝竹.剪切增稠液体材料的研究现状及其在人体防护装备上的应用[J].中国塑料,2013(09):1-5. |
| [3] | 徐素鹏,张玉芳.剪切增稠液体在个体防护装甲上的应用进展[J].高科技纤维与应用,2008(03):40-43. |
| [4] | Tang Shengbo;Sun Jianke;Chang Pengbei et al.Study progress on high-performance magetorheological fluids[J].Development and Application of Materials,2010,24(02):60-67. |
| [5] | 富蕾,路遥,杨硕,王依民.剪切增稠液体的制备及其性能和应用[J].高科技纤维与应用,2012(02):50-56. |
| [6] | Brent J. Maranzano;Norman J. Wagner .The effects of interparticle interactions and particle size on reversible shear thickening: Hard-sphere colloidal dispersions[J].Journal of Rheology,2001(5):1205-1222. |
| [7] | 路瑶,富蕾,王丹,赵华蕾,王燕萍,王依民.不同体系剪切增稠液体的流变行为研究[J].合成技术及应用,2013(04):6-9. |
| [8] | Xu Yulei;Gong Xinglong;Jiang Wanquan et al.Prepa-ration and characterization of shear thickening fluid[J].Functional Materials,2007,38(Supplement):3904-3908. |
| [9] | Nie Lumei;Zhang Junji;Chen Jishi et al.Preparation and reaction mechanism of monodisperse silica micro-spheres[J].Journal of Ceramics,2010,31(01):75-78. |
| [10] | Ding Guanjun;Zhu Mingwei;Qian Guodong et al.Continuous growth of weveral monodisperse submicron SiO 2 glass microspheres[J].RARE METAL MATERIALS AND ENGINEERING,2004,33(03):15-18. |
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